US20070070298A1 - Projection type display unit - Google Patents
Projection type display unit Download PDFInfo
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- US20070070298A1 US20070070298A1 US11/440,004 US44000406A US2007070298A1 US 20070070298 A1 US20070070298 A1 US 20070070298A1 US 44000406 A US44000406 A US 44000406A US 2007070298 A1 US2007070298 A1 US 2007070298A1
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- Prior art keywords
- display unit
- top cover
- type display
- projection type
- cabinet
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Images
Classifications
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B21/00—Projectors or projection-type viewers; Accessories therefor
- G03B21/14—Details
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B21/00—Projectors or projection-type viewers; Accessories therefor
- G03B21/14—Details
- G03B21/18—Fire preventing or extinguishing
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B21/00—Projectors or projection-type viewers; Accessories therefor
- G03B21/14—Details
- G03B21/16—Cooling; Preventing overheating
Definitions
- the present invention contains subject matter related to Japanese Patent Application JP 2005-154149 filed in the Japanese Patent Office on May 26, 2005, and Japanese Patent Application JP 2005-261242 filed in the Japanese Patent Office on Sep. 8, 2005 the entire contents of which being incorporated herein by reference.
- the present invention relates to a projection type display unit such that an image obtained by irradiating a light valve or valves with light from a light source is projected onto a screen or the like for displaying the image, particularly to a structure for enhancing the portability of such a projection type display unit.
- a projection type display unit generally called video projector has a configuration in which a light source, an optical unit including light valves and a projection lens, and a cooling section for cooling the light source and the optical unit are incorporated in an armor cabinet (see, for example, Japanese Patent Laid-open No. 2003-241314).
- the projection type display unit is a unit in which an image obtained by irradiating the light valves in the optical unit with light emitted from a lamp serving as the light source is projected onto a screen by the projection lens, thereby displaying the image.
- Such projection type display units have come to be frequently used also for electronic presentation attendant on the spread of PCs (personal computers).
- projection type display units in related art are not structured taking portability into particular account, so that in moving such a projection type display unit in related art, it is a general practice to carry the display unit by gripping appropriate portions of the armor cabinet with both hands.
- the projection type display unit in related art has been very troublesome to carry because it is necessary to carry the display unit by gripping it with both hands.
- the display unit is difficult to grip because the armor cabinet is large in thickness.
- the gripping depth to fingertips in gripping the armor cabinet is so small that the state of being gripped by one hand is instable, so that the display unit cannot be carried with assurance.
- the present invention has been made in consideration of the above-mentioned points. Accordingly, it is desirable to provide a projection type display unit which is of a thin type and excellent in portability so that it can be carried in a stable state even when gripped with one hand.
- a projection type display unit including a light source, an optical unit including a light valve and a projection lens, and a cooling section for cooling the light source and the optical unit, the light source and the optical unit as well as the cooling section being incorporated in an armor cabinet
- the armor cabinet includes a base cabinet on which the light source, the optical unit and the cooling section are mounted, and a top cover composed of a sheet metal and so mounted as to cover the base cabinet; the base cabinet is provided on the front side thereof with an opening for the projection lens; and a rear face portion composed of the top cover on the opposite side of the opening for the projection lens is formed in the shape of a laid-down U-shaped curved surface.
- a projection type display unit including a light source, an optical unit including a light valve and a projection lens, and a cooling section for cooling the light source and the optical unit, the light source and the optical unit as well as the cooling section being incorporated in an armor cabinet
- the armor cabinet includes a base cabinet on which the light source, the optical unit and the cooling section are mounted, and a top cover composed of a sheet metal and so mounted as to cover the base cabinet; a resin-made boss is projectingly provided on the back side of the top cover; and a screw is fastened to the boss from the base cabinet side to thereby fix the base cabinet and the top cover.
- the top cover composed of the sheet metal is adopted to constitute a part of the armor cabinet, whereby the armor cabinet can be reduced in thickness, a great effect on thinning the display unit can be obtained, and the display unit is made to be advantageous to carry.
- the rear face portion composed of the top cover is formed in the shape of a U-shaped curved surface, whereby the portion can be ergonomically fitted to a palm when gripped by hand, and it becomes possible to grip the portion deeply to fingertips, and to securely grip the portion even by one hand.
- a projection type display unit excellent in portability can be provided.
- the top cover in the projection type display unit has the resin-made bosses on the back side thereof, and the screws are fastened to the bosses from the base cabinet side to thereby fix the base cabinet and the top cover. Therefore, there are no projecting parts on the surface of the top cover, so that carrying of the display unit would not be hampered by such projecting parts, which is much advantageous for enhancing the portability of the display unit. Furthermore, the absence of projecting parts on the surface of the top cover makes it possible to adopt any of a diversity of designs, and to enhance the degree of freedom in designing.
- the bosses on the back side of the top cover are made of a resin which is different from the sheet metal, so that there is no possibility that cutting chips generated from the bosses at the time of fastening the screws into the bosses might adversely affect a power circuit or the like inside the display unit.
- FIG. 1 is a perspective view of a projection type display unit according to an embodiment of the present invention
- FIG. 2 is a front view of the projection type display unit according to the embodiment.
- FIG. 3 is a left side view of the projection type display unit according to the embodiment.
- FIG. 4 is a right side view of the projection type display unit according to the embodiment.
- FIG. 5 is a bottom view of the projection type display unit according to the embodiment.
- FIG. 6 is a plan view showing the inside structure of the projection type display unit according to the embodiment.
- FIG. 7 is a perspective view of a top cover in the projection type display unit according to the embodiment of the present invention.
- FIG. 8 is a perspective view showing the shape of each boss projectingly provided on the back side of the top cover in the projection type display unit according to the embodiment;
- FIG. 9 is an illustration of the condition where the projection type display unit according to the embodiment is gripped by one hand.
- FIG. 10 is a side sectional view showing the structure in the vicinity of an exposing portion of a projection lens in the projection type display unit according to the embodiment.
- FIG. 11 is a vertical sectional view showing the structure in the vicinity of an exposing portion of a projection lens in the projection type display unit according to the embodiment.
- FIG. 12 is a schematic diagram showing the inside structure of the projection type display unit according to the embodiment.
- FIGS. 13A and 13B are schematic diagrams showing a cooling structure of the projection type display unit according to the embodiment.
- FIG. 14 is a perspective view showing the layout configuration of a lamp plate in the projection type display unit according to the embodiment.
- FIG. 15 is a bottom view showing the condition where a lamp lid is removed, in the projection type display unit according to the embodiment.
- FIG. 16 is a plan view, as viewed from the back side, of the lamp lid mounted in the projection type display unit according to the embodiment.
- FIG. 17 is a vertical sectional view showing the mounting structure of the lamp lid in the projection type display unit according to the embodiment.
- FIGS. 1 to 5 show the appearance of the projection type display unit in this embodiment, wherein FIG. 1 is a perspective view, FIG. 2 is a front view, FIG. 3 is a left side view, FIG. 4 is a right side view, and FIG. 5 is a bottom view.
- FIG. 6 is a plan view showing the inside structure of the projection type display unit in this embodiment.
- the projection type display unit 1 shown here is a video projector which is of a small and thin type having a B5 size with a thickness of 50 mm or below, and in which light-weight is realized to have a weight of about 1.8 kg.
- the projection type display unit 1 has a configuration in which a lamp unit 29 containing a lamp 28 as a light source, and an optical unit 30 including three color light valves 44 (R), 44 (G), 44 (B) and a projection lens 49 are incorporated in an armor cabinet 2 .
- An image obtained by the light valves 44 (R), 44 (G), 44 (B) with light emitted from the lamp unit 28 is projected through the projection lens 49 onto a screen, thereby displaying the image.
- the armor cabinet 2 of the projection type display unit 1 is composed of a base cabinet 3 onto which inside component parts such as the optical unit 30 are mounted, and a top cover 4 so mounted as to cover the base cabinet 3 .
- the base cabinet 3 is a die-cast product formed from a metallic material such as magnesium and aluminum, or is a resin molding formed from a hard resin material, and constitutes a bottom face portion, left and right side face portions, and a front face portion of the armor cabinet 2 .
- the top cover 4 is a worked sheet metal product produced by drawing a sheet metal of an aluminum alloy or the like, and constitutes an upper face portion and a rear face portion of the armor cabinet 2 .
- the top cover 4 is fixed, in the state of being mounted on the base cabinet 3 , by screws 18 and 19 from the bottom side of the base cabinet 3 .
- the projection lens 49 is exposed through a transparent protective plate 20 to a front panel 3 a constituting a front face portion of the armor cabinet 2 , and image light is projected from the projection lens 49 onto a screen.
- the transparent protective plate 20 is disposed to be flush with the front panel 3 a , and the projection lens 49 is hermetically sealed and protected by the protective plate 20 .
- a projection distance detecting sensor 24 a , 24 b for auto-focusing is provided at a position proximate to the projection lens 49 , by way of a semi-transparent member 21 .
- an operating part 6 and a terminal part 7 are concentratedly disposed, as shown in FIG. 3 .
- the operating part 6 is configured to have a power switch button 6 a , an input signal changeover button 6 b , an auto-focus changeover button 6 c , a tilt adjustment button 6 d , a zoom adjustment button 6 e , a focus button 6 f and the like
- the terminal part 7 is configured to have a power cord connection terminal 7 a and a picture signal input terminal 7 b .
- exhaust ports (louvers) 10 for axial fans 9 for discharging the heat of the lamp 28 as a light source are provided, as shown in FIG. 4 .
- a bottom face 3 d of the base cabinet 3 is provided with fixing legs 11 at left and right positions of a rear face portion, and with an expansion leg 12 at a front central position, as shown in FIG. 5 .
- the expansion leg 12 is expanded and contracted so as to project outward from and retract inward from the base cabinet 3 , and an adjustment of projection angle of the display unit (tilt adjustment) is conducted through the movements of the expansion leg 12 .
- the bottom face 3 d of the base cabinet 3 is provided with an intake part 13 for a sirocco fan serving as a cooling section and with a multiplicity of ventilation holes 14 , and a resin-made lamp lid 15 for closing an opening for replacement of the lamp unit 29 as the light source is attached to the bottom face 3 d by screws 16 .
- the lamp lid 15 is provided with a multiplicity of exhaust heat holes 17 for discharging the heat generated in the lamp unit 29 .
- the top cover 4 constituting the upper face portion and the rear face portion of the armor cabinet 2 is produced by blanking an about 1 mm thick sheet metal by a press and drawing the blanked sheet metal.
- the material of the top cover 4 there is preferably used an aluminum alloy as a metallic material which has a required strength for enduring as the armor of the projection type display unit 1 (in this embodiment, a flexural strength of not less than 15 kgf (147 N)) and which is light in weight and excellent in heat radiating property (thermal conductivity).
- a plurality of bosses 5 for screwing the top cover 4 to the base cabinet 3 are projectingly provided on the back side of the top cover 4 .
- the bosses 5 are molded integrally with the sheet metal of the top cover 4 by outsert molding, from a resin material being different from the material of the sheet metal (aluminum alloy) of the top cover 4 , preferably a hard resin material such as PBT (polybutylene terephthalate).
- a surface of the sheet metal is provided with fine recesses and projections on the nanometer level by a nano-mold technology (NMT) process so as to permit the resin to enter into the recessed and projected surface, whereby a bonding property based on a key structure with the resin is provided so that the resin is molded in the state of being firmly attached to the surface of the sheet metal.
- NMT nano-mold technology
- the plurality of bosses 5 are provided at such positions as not to interfere with the component parts in the inside of the display unit.
- Each of the bosses 5 is provided at its base end portion with a pedestal part 5 b greater in diameter than a boss body portion 5 a , whereby the area of joint to the top cover 4 is enlarged, and a sufficient fixation strength is secured.
- resin runner parts 5 c are extended from the pedestal part 5 b , whereby the area of fixation of the boss 5 to the top cover 4 is further enlarged.
- the bosses 5 may not necessarily be molded by the above-mentioned nano-mold technology process; for example, the bosses 5 may be integrally fixed to the top cover 4 by welding or by use of a strong adhesive.
- the top cover 4 In mounting the top cover 4 having the bosses 5 onto the base cabinet 3 , the top cover 4 is put on the base cabinet 3 . Then, in this condition, an end portion on the rear side of the top cover 4 is fixed to the bottom face 3 d of the base cabinet 3 by the screws 18 , and the screws 19 are fastened to the bosses 5 from the side of the bottom face 3 d of the base cabinet 3 , whereby the base cabinet 3 and the top cover 4 are fixed.
- the top cover 4 is made of a sheet metal, it is superior to a resin or the like in strength and heat radiating property; thus, this configuration is preferable for adoption for the armor cabinet 2 of the projection type display unit 1 as in this embodiment, and has a lowering effect on the inside temperature.
- the sheet metal top cover 4 adopted in the projection type display unit 1 according to this embodiment, the upper face portion of the armor cabinet 2 can be minimized in thickness, which contributes greatly to the achievement of a super-thin configuration with a thickness of 50 mm or less. With the super-thin configuration thus achieved, the projection type display unit 1 in this embodiment can be carried while easily gripped with one hand, which is advantageous on a portability basis.
- the projection type display unit 1 in this embodiment has a structure in which, as is clear from the above-mentioned armor configuration, the operating part 6 and the terminal part 7 are concentratedly disposed at one side face (left side face) of the armor cabinet 2 , while the side face (right side face) on the opposite side is provided with the exhaust port 10 for discharging the heat generated in the lamp unit 29 , and no parts are disposed at the rear face portion on the opposite side of the opening for the projection lens 40 exposed to the front panel 3 a so that the portion is easily held by gripping it with hand.
- the rear face portion of the armor cabinet 2 is composed of the sheet metal top cover 4 as above-described, and, particularly in the projection type display unit 1 according to this embodiment, the rear face portion 4 a of the top cover 4 is formed in the shape of a laid-down U-shaped curved surface as viewed sideways.
- the projection type display unit 1 in this embodiment is configured to have a thickness of 50 mm or less and has the rear face portion 4 a of the top cover 4 formed in the shape of the U-shaped curved surface, whereby the portion can be securely gripped with one hand, as shown in FIG. 9 .
- the rear face portion 4 a of the top cover 4 has a general angular shape, the depth of grip to the fingertips is small, so that the state of being gripped with one hand will be instable.
- the rear face portion 4 a of the top cover 4 is formed in the shape of the U-shaped curved surface, the portion fits to the palm favorably on an ergonomic basis, and the grip on the display unit ranges to the fingertips, so that the display unit can be gripped securely and assuredly even with one hand.
- the top cover 4 Since the top cover 4 is produced by drawing a sheet metal, the curved surface shape can be easily obtained. In addition, since the top cover 4 has the resin-made bosses 5 on the back side thereof and is screwed to the base cabinet 3 side at the bosses 5 , no projecting parts are present on the outside surface of the top cover 4 , and hampering of the carrying of the display unit by such projecting parts can be obviated, which is much advantageous for enhancing the portability. Besides, since the top cover 4 is produced from a sheet metal by drawing as above-mentioned, generation of a parting line on the split line of dies as experienced in the case of a resin molding is obviated, so that a projection type display unit with a streamlined appearance design can be provided. Furthermore, in this projection type display unit, the absence of projecting parts or the parting line on the outside surface of the top cover 4 makes it possible to adopt any of a diversity of designs, and to enhance the degree of freedom in designing.
- the bosses 5 for screwing the top cover 4 are formed from a resin which is an insulating material and different from the material of the sheet metal (aluminum alloy), so that there is no fear that cutting chips generated from the bosses 5 at the time of fastening the screws 19 to the bosses 5 might adversely affect a power circuit and the like inside the display unit.
- bosses 5 are molded integrally with the top cover 4 by outsert molding and are integrated with the top cover 4 with a sufficient fixation strength by a nano-mold technology process, there is no need for fixing members or an adhesive or the like for fixing the bosses 5 to the top cover 4 , so that it is possible to reduce the number of component parts, to enhance workability, and to obtain improving effects on an environmental basis.
- FIGS. 10 and 11 show the structure of the vicinity of the exposing portion of the projection lens 49 in the front panel 3 a .
- a transparent protective plate 20 fitted in position to be flush with the front panel 3 a is disposed on the front side of the projection lens 49 , so that the front side of the projection lens 49 is hermetically sealed by the protective plate 20 , and the projection lens 49 is protected by the protective plate 20 .
- the protective plate 20 is formed of a transparent resin or glass, which is provided with AR coating on the face and back sides thereof to suppress the lowering in luminance efficiency to 1% to 2%.
- the protective plate 20 is fitted in the front panel 3 a , and is clamped between the top cover 4 and the base cabinet 3 .
- the protective plate 20 is provided with flange portions 20 a , 20 b at its upper and lower end surfaces, and the flange portions 20 a , 20 b are engaged respectively with the top cover 4 and the base cabinet 3 , whereby the protective film 20 is prevented from coming off and is retained in position.
- the front panel 3 a located on the left and right sides of the protective plate 20 is fitted with decorative plate 22 a and 22 b for enhancing design quality.
- a plate-like semi-transparent member 21 a little greater than the protective plate 20 is disposed.
- the semi-transparent member 21 is fixedly fused to the inner side of the front panel 3 a , and is provided in its central portion with an opening corresponding to the projection lens 49 so that the projection lens 49 is exposed through the opening.
- a projection distance detecting sensor 24 a , 24 b for auto-focusing is disposed in proximity to the projection lens 49 .
- the projection distance detecting sensor 24 a , 24 b has a light emitting device on one side and a light receiving device on the other side.
- An infrared beam emitted from the light emitting device toward a screen is reflected by the screen, and the reflected beam is received by the light receiving device, to thereby measure the projection distance, for automatically conducting an auto-focus adjustment of the projection lens 49 and up and down adjustment for keystone correction.
- a semi-transparent resin or glass having a visible ray transmittance of 10% to 50% and a transmittance for the infrared beam for detecting the projection distance of not less than 90%.
- Examples of an optimum material for this purpose include a methacrylic resin molding material “ACRYPET (trademark)” produced by MITSUBISHI RAYON CO., LTD.
- the projection type display unit 1 has a structure in which the transparent protective plate 20 fitted to be flush with the front panel 3 a of the armor cabinet 2 is disposed on the front side of the projection lens 49 , the semi-transparent member 21 having the opening corresponding to the projection lens 49 is disposed on the inner side of the transparent protective plate 20 , and the projection distance detecting sensor 24 a , 24 b for auto-focusing is disposed on the inner side of the semi-transparent member 21 , whereby a simple appearance with a surface free of an opening for sensor or the like is realized.
- the projection lens 49 is protected by the protective plate 20 assembled into the front panel 3 a of the armor cabinet 2 , the projection lens 49 is prevented from being damaged and from adhesion of foreign matter thereto. Further, since the protective plate 20 is so assembled as to be flush with the front panel 3 a , dust collection in the vicinity of the protective plate 20 is obviated, so that hindrance of image due to adhesion of dust or the like can be suppressed.
- the front side of the projection lens 49 is hermetically sealed with the protective plate 20 , so that penetration of dust or the like into the inside of the display unit is prevented perfectly, the path of a cooling airflow in the inside of the display unit is made stable, and cooling efficiency can be enhanced.
- this projection type display unit a structure is adopted in which the semi-transparent member 21 is disposed on the inner side of the protective plate 20 , and the projection distance detecting sensor 24 a , 24 b is disposed on the inner side of the semi-transparent member 21 , whereby the projection distance detecting sensor 24 a , 24 b can be laid out in proximity to the projection lens 49 . Therefore, space efficiency in the inside of the display unit is enhanced, which contributes greatly to the reduction in the size and thickness of the display unit.
- the semi-transparent member 21 has the flange portion 21 a projecting toward the projection lens 49 , at an edge portion of the opening corresponding to the projection lens 49 . Due to the presence of the flange portion 21 a provided in the semi-transparent member 21 , in the projection type display unit according to this embodiment, the light of the lamp 28 inside the display unit can be prevented from leaking to the front side of the projection lens 49 as unrequired reflected light (stray light).
- the protective plate 20 is mounted in the state of being clamped between the top cover 4 and the base cabinet 3 . Therefore, in the case where the protective plate 20 has been damaged or broken, the protective plate 20 can be easily replaced by a new one by detaching the top cover 4 from the base cabinet 3 .
- the projection type display unit in this embodiment has a configuration in which the lamp unit 29 including the lamp 28 as a light source, the optical unit 30 including the three light valves 44 (R), 44 (G), 44 (B) and the projection lens 49 , and the sirocco fans 51 , 52 and 56 , 57 and the axial fan 9 as a cooling section for cooling the lamp unit 29 and the optical unit 30 , a power circuit unit 25 for supplying electric power to the lamp 28 and the like, a signal processing circuit unit 26 , and an operating part and terminal part unit 27 , and the like are mounted in the inside of the armor cabinet 2 .
- the lamp unit 29 has a configuration in which the lamp 28 is mounted in the inside of a unit case, and can be replaced by opening the lamp lid 15 at the bottom face 3 d of the base cabinet 3 .
- the optical unit 30 is configured to include a fly-eye lens 31 , a polarization conversion element 32 , a condenser lens 33 , dichroic mirrors 34 , 35 , total reflection mirrors 36 , 37 , 38 , relay lenses 39 , 40 , field lenses 41 , 42 , 43 , the three light valves 44 (R), 44 (G), 44 (B) including liquid crystal panels 45 as display elements, a prism 48 , the projection lens 49 , and the like.
- non-polarized white light emitted from the lamp 28 is converted into linearly polarized light while passing from the fly-eye lens 31 and through the polarization conversion element 32 , and is condensed by the condenser lens 33 to be uniform white light free of luminance irregularities, and the white light free of luminance irregularities passes through the dichroic mirrors 34 , 35 , to be incident on the three light valves 44 (R), 44 (G), 44 (B).
- the white light is separated by the dichroic mirrors 34 , 35 serving as color separation means into red light (R), green light (G), and blue light (B), and the red light passes through the relay lens 39 , the total reflection lens 36 , the relay lens 40 and the total reflection mirror 37 to be condensed by the field lens 41 , before being incident on the red-light light valve 44 (R).
- the green light passes through the dichroic mirror 35 to be condensed by the field lens 42 , before being incident on the green-light light valve 44 (G).
- the blue light passes from the dichroic mirror 34 and through the total reflection mirror 38 to be condensed by the field lens 42 , before being incident on the blue-light light valve 44 (B).
- the three light valves 44 (R), 44 (G), 44 (B) are each configured to have polarizing plates 46 and 47 on the incidence side and the outgoing side of the liquid crystal panel 45 , wherein each color light is aligned as to the polarization direction by the polarizing plate 46 on the incidence side, before being incident on the liquid crystal panel 45 .
- the liquid crystal panel 45 modulates each light by a picture signal impressed correspondingly to each color; then, the three modulated beams thus obtained are polarized when transmitted through the polarizing plates 47 on the outgoing side to be picture beams, which are incident on the prism 48 .
- the picture beams in colors are synthesized, and the synthesized picture light is projected by the projection lens 49 onto a screen, to display a full-color image.
- high heat is generated in the lamp unit 29 , the vicinity of the polarization conversion element 32 and the light valves 44 (R), 44 (G), 44 (B) in the optical unit 30 , and the power circuit unit 25 , so that these components must be forcibly cooled to maintain a temperature not higher than an operation assurance temperature.
- the first and second sirocco fans 51 and 52 are first mounted as a cooling section.
- the first and second sirocco fans 51 and 52 small-type sirocco fans of the same type are used.
- the sirocco fans 51 and 52 in a stacked state, with an intake port 51 a of the first sirocco fan 51 directed upward and with an intake port 52 a of the second sirocco fan 52 directed downward, are disposed in a space on the rear side of the optical unit 30 .
- the first and second sirocco fans 51 and 52 are mounted onto the base cabinet 3 in the condition where intake spaces for the intake ports inside the display unit are sufficiently secured, and the intake of air is conducted through a multiplicity of ventilation holes 14 provided in the bottom face 3 d of the base cabinet 3 .
- the first sirocco fan 51 blows air through a duct 53 to the lamp unit 29 and to the vicinity of the polarization conversion element 32 in the optical unit 30 to cool them, as shown in FIG. 13A
- the second sirocco fan 52 blows air through a duct 54 to the power circuit unit 25 to cool it, as shown in FIG. 13B .
- cooling section In such a cooling section, a sufficient quantity of cooling airflow can be secured by use of the two small-type sirocco fans, and the installation space inside the display unit can be suppressed to be small by disposing the sirocco fans 51 and 52 in the stacked state; therefore, the configuration of the cooling section can contribute greatly to the reductions in the size and thickness of the projection type display unit according to this embodiment.
- the first sirocco fan 51 blows air to the lamp unit 29 and the optical unit 30
- the second sirocco fan 52 blows air to the power circuit unit 25
- the first sirocco fan 51 and the second sirocco fan 52 may be disposed in the reverse configuration, in which the first sirocco fan 51 blows air to the power circuit unit 25 , whereas the second sirocco fan 52 blows air to the lamp unit 29 and the optical unit 30 ; in this case, also, the same cooling effect as above can be obtained.
- the third and fourth sirocco fans 56 and 57 are disposed respectively on the left and right sides of the projection lens 49 .
- the third and fourth sirocco fans 56 and 57 are laid out by effectively utilizing the spaces on the left and right sides of the projection lens 49 .
- the third sirocco fan 56 and the fourth sirocco fan 57 are not the same in shape but are left-right symmetrical in shape, and they are mounted onto the base cabinet 3 , with their respective intake ports 56 a and 57 a directed toward the projection lens 49 .
- the intake of air into the third sirocco fan 56 and the fourth sirocco fan 57 is conducted on the lower side of the projection lens 49 through a dust-filtered intake part 13 provided in the bottom face 3 d of the base cabinet 3 .
- the third sirocco fan 56 and the fourth sirocco fan 57 blow air through thin-type ducts 58 and 59 , which are provided along a bottom portion of the base cabinet 3 , to the vicinity of the light valves 44 (R), 44 (G), 44 (B) of the optical unit 30 for cooling the vicinity of the light valves 44 (R), 44 (G), 44 (B).
- the sirocco fans 56 and 57 in left-right symmetrical shapes are disposed, whereby the cooling efficiency can be further enhanced.
- the left and right sirocco fans 56 and 57 are the same in shape, the left and the right sirocco fans are disposed in the inverted states, so that the respective blowing ports are located reversely in the vertical direction, which needs ducts with complicated paths, with the result that air quantity is lowered due to a pressure loss in the ducts.
- the left and right sirocco fans 56 and 57 which are left-right symmetrical in shape are used, whereby it is made possible to use the thin-type ducts 58 and 59 with simple paths along the bottom portion of the base cabinet 3 , so that the airflows from the blowing ports of the sirocco fans 56 and 57 can be guided to the optical unit 30 without resistance, and the cooling efficiency is enhanced markedly.
- the intake of air into the sirocco fans 56 and 57 disposed on the left and right sides of the projection lens 49 is conducted on the lower side of the projection lens 49 through the dust-filtered intake part 13 provided in the bottom face 3 d of the base cabinet 3 ; therefore, intake of dust or the like is prevented by the dust filter at the intake part 13 , so that the projection lens 49 and the optical unit 30 can be securely protected from dust and the like.
- the two axial fans 9 located in the vicinity of the lamp unit 29 on the inner side of the right side face 3 c of the base cabinet 3 are disposed side by side, and the hot air generated from the lamp unit 28 is discharged through the exhaust port 10 by the axial fans 9 .
- the top cover 4 near the lamp unit 29 generating a large quantity of heat must be kept at such a temperature that the top cover 4 can be held by hand, while minimizing the space between the lamp unit 29 and the top cover 4 .
- a lamp plate 61 which is a highly heat conductive sheet metal product higher in thermal conductivity than air is disposed in the space between the lamp unit 29 and the top cover 4 , whereby it is made possible to lower the temperature of the top cover 4 .
- the lamp plate 61 is a sheet metal product disposed so as to amply cover the upper side of the lamp unit 29 , and a heat-diffusing effect of a highly heat conductive material constituting the lamp plate 61 makes it possible to lower the temperature of the top cover 4 while minimizing the distance from the lamp unit 29 to the top cover 4 .
- a lowly heat conductive heat insulating sheet 62 lower in thermal conductivity than air is adhered to substantially the whole area of the upper surface of the lamp plate 61 , and the heat-insulating effect of the heat insulating sheet 62 makes it possible to further lower the temperature of the top cover 4 .
- a highly heat conductive metal such as pure aluminum (JIS A1000) and copper is used as the material of the lamp plate 61
- a vacuum insulation material for example, is used as the heat insulating sheet 62 .
- the temperature of the lamp plate 61 can be suppressed to about 80° C. with a heat radiating area of 9000 mm 2 ; when a material having a thermal conductivity of about 400 W/mK such as copper is used for the lamp plate 61 , the temperature of the lamp plate 61 can be suppressed to or below 80° C. with a heat radiating area of about 6000 mm 2 .
- the lowering of the temperature of the top cover 4 is achieved while realizing a thin type structure in which the space between the lamp unit 29 and the top cover 4 is minimized, by the heat diffusing effect of the lamp plate 61 disposed between the lamp unit 29 and the top cover 4 and the heat insulating effect of the heat insulating sheet 62 .
- the lamp unit 29 , the lamp plate 61 , the heat insulating sheet 62 , and the top cover 4 are laid out in this order, and, here, the lamp plate 61 formed of a highly heat conductive material is disposed between the heat insulating sheet 62 and the lamp unit 29 , so that a lowly heat conductive material being comparatively low in heat resisting temperature can be used for the heat insulating sheet 62 .
- the lamp plate 61 formed of a highly heat conductive material is disposed between the heat insulating sheet 62 and the lamp unit 29 , so that a lowly heat conductive material being comparatively low in heat resisting temperature can be used for the heat insulating sheet 62 .
- a metal as a highly heat resistant material used for the lamp plate 61 it is possible to cope with the purpose under the high-temperature conditions in the vicinity of the lamp unit 29 .
- the lamp plate 61 is preferably composed of a sheet metal product which has a high reflectance in addition to the high thermal conductivity.
- the lamp plate 61 by adopting the lamp plate 61 with such a high reflectance, the reception of heat due to direct light and radiant heat from the lamp 28 can be minimized, so that the adoption is further effective in lowering the temperature of the top cover 4 .
- the lamp plate 61 is disposed so that its heat radiating surface fronts on the space near the axial fans 9 where the velocity of the cooling airflows inside the display unit is comparatively high, whereby heat radiation at high efficiency can be achieved.
- the velocity of airflows W is comparatively as high as about 1 m/s to 1.5 m/s due to the exhaust force of the axial fans 9 , and, with the lamp plate 61 disposed so that its heat radiating surface fronts on the space, the quantity of heat received from the lamp 28 can be efficiently diffused, so that heat radiation at a higher efficiency can be achieved, which contributes greatly to lowering of the temperature of the top cover 4 .
- the lamp unit 29 has the lamp 28 contained inside the unit case 29 a having a reflector on the inside thereof.
- the upper side of the unit case 29 a is opened in shape, and the lamp plate 61 is closely disposed so as to cover the open side, thereby functioning also as a reflector.
- FIG. 15 shows the bottom face of the base cabinet 3 in the condition where the lamp lid is removed. In the condition where the lamp lid is thus removed, an opening 65 of a storage part 64 for storing the lamp unit 29 is exposed at the bottom face 3 d of the base cabinet 3 , so that the lamp unit 29 can be replaced through the opening 65 .
- the resin-made lamp lid 15 for closing the opening 65 is mounted onto the base cabinet 3 by screws in the state of being fitted in a mounting recess 66 at the periphery of the opening 65 , and has a large area of not less than two times the area of the opening 65 .
- a metallic radiant heat insulating plate 67 slightly smaller than the lamp lid 15 in area is disposed on the back side of the lamp lid 15 , and is mounted onto the lamp lid 15 , with a required gap of about 1 mm therebetween.
- a sheet of a metal (e.g., aluminum, stainless steel or the like) higher in thermal reflectance than the lamp lid 15 is used as the radiant heat insulating plate 67 .
- the lamp lid 15 is mounted in the condition where the radiant heat insulating plate 67 on the back side is in surface contact with the mounting recess 66 of the base cabinet 3 over an area of not less than one half of the area thereof.
- the metallic radiant heat insulating plate 67 is provided on the back side of the lamp lid 15 for closing the opening 65 of the storage part 64 for the lamp unit 29 , so that the radiant heat insulating plate 67 functions as a buffer member against the heat coming from the lamp unit 29 . Moreover, since a gap is present between the radiant heat insulating plate 67 and the lamp lid 15 , heat would not easily be transferred from the radiant heat insulating plate 67 to the lamp lid 15 , so that the temperature of the lamp lid 15 is effectively restrained from rising.
- the lamp lid 15 since the lamp lid 15 is mounted in the condition where the radiant heat insulating plate 67 on the back side is in surface contact with the base cabinet 3 , the heat received from the lamp unit 29 can be transferred from the radiant heat insulating plate 67 to the base cabinet 3 and thereby dissipated.
- the lamp lid 15 is formed to have a size of at least two times the size of the opening 65 , and the radiant heat insulating plate 67 is put in surface contact with the base cabinet 3 over an area of at least one half of the area thereof, whereby a further efficient heat radiating effect can be obtained.
- the surface temperatures of the lamp lid 15 and the base cabinet 3 are made uniform, and the inside temperature of the display unit can be stabilized.
- the radiant heat insulating plate 67 is provided with a multiplicity of exhaust heat holes 68 .
- the exhaust heat holes 68 in the radiant heat insulating plate 67 are formed at positions corresponding to the exhaust heat holes 17 in the lamp lid 15 , ventilation property is securely provided by the exhaust heat holes 17 and 68 , whereby stagnation of heat inside the display unit is prevented from occurring, and more effective heat radiation can be achieved.
- the projection type display unit according to this embodiment has been experimentally confirmed to have an advantage that the surface temperature of the lamp lid is lowered by about 4° C.
- the base cabinet 3 is preferably formed of a metal having a required strength, being light in weight and excellent in heat radiation property, for example, magnesium, aluminum, or titanium, or an alloy containing such a metal. This ensures that the projection type display unit in this embodiment can be reduced in size and weight while maintaining the above-mentioned heat radiating effect.
Abstract
Description
- The present invention contains subject matter related to Japanese Patent Application JP 2005-154149 filed in the Japanese Patent Office on May 26, 2005, and Japanese Patent Application JP 2005-261242 filed in the Japanese Patent Office on Sep. 8, 2005 the entire contents of which being incorporated herein by reference.
- The present invention relates to a projection type display unit such that an image obtained by irradiating a light valve or valves with light from a light source is projected onto a screen or the like for displaying the image, particularly to a structure for enhancing the portability of such a projection type display unit.
- A projection type display unit generally called video projector has a configuration in which a light source, an optical unit including light valves and a projection lens, and a cooling section for cooling the light source and the optical unit are incorporated in an armor cabinet (see, for example, Japanese Patent Laid-open No. 2003-241314).
- The projection type display unit is a unit in which an image obtained by irradiating the light valves in the optical unit with light emitted from a lamp serving as the light source is projected onto a screen by the projection lens, thereby displaying the image.
- Such projection type display units have come to be frequently used also for electronic presentation attendant on the spread of PCs (personal computers). Among these display units, a projection type display unit excellent in portability as an image output device for a notebook type PC or the like, particularly, has come to be keenly requested.
- Considering the projection type display units in related art from this point of view, they are not structured taking portability into particular account, so that in moving such a projection type display unit in related art, it is a general practice to carry the display unit by gripping appropriate portions of the armor cabinet with both hands.
- Thus, the projection type display unit in related art has been very troublesome to carry because it is necessary to carry the display unit by gripping it with both hands. In addition, where it is intended to carry the display unit by gripping it with one hand irrationally, the display unit is difficult to grip because the armor cabinet is large in thickness. Besides, since the armor cabinet is generally angular in shape, the gripping depth to fingertips in gripping the armor cabinet is so small that the state of being gripped by one hand is instable, so that the display unit cannot be carried with assurance.
- The present invention has been made in consideration of the above-mentioned points. Accordingly, it is desirable to provide a projection type display unit which is of a thin type and excellent in portability so that it can be carried in a stable state even when gripped with one hand.
- According to an embodiment of the present invention, there is provided a projection type display unit including a light source, an optical unit including a light valve and a projection lens, and a cooling section for cooling the light source and the optical unit, the light source and the optical unit as well as the cooling section being incorporated in an armor cabinet, wherein the armor cabinet includes a base cabinet on which the light source, the optical unit and the cooling section are mounted, and a top cover composed of a sheet metal and so mounted as to cover the base cabinet; the base cabinet is provided on the front side thereof with an opening for the projection lens; and a rear face portion composed of the top cover on the opposite side of the opening for the projection lens is formed in the shape of a laid-down U-shaped curved surface.
- According to another embodiment of the present invention, there is provided a projection type display unit including a light source, an optical unit including a light valve and a projection lens, and a cooling section for cooling the light source and the optical unit, the light source and the optical unit as well as the cooling section being incorporated in an armor cabinet, wherein the armor cabinet includes a base cabinet on which the light source, the optical unit and the cooling section are mounted, and a top cover composed of a sheet metal and so mounted as to cover the base cabinet; a resin-made boss is projectingly provided on the back side of the top cover; and a screw is fastened to the boss from the base cabinet side to thereby fix the base cabinet and the top cover.
- In the projection type display unit according to the present invention configured as above, the top cover composed of the sheet metal is adopted to constitute a part of the armor cabinet, whereby the armor cabinet can be reduced in thickness, a great effect on thinning the display unit can be obtained, and the display unit is made to be advantageous to carry.
- Besides, in the present invention, the rear face portion composed of the top cover is formed in the shape of a U-shaped curved surface, whereby the portion can be ergonomically fitted to a palm when gripped by hand, and it becomes possible to grip the portion deeply to fingertips, and to securely grip the portion even by one hand. Thus, a projection type display unit excellent in portability can be provided.
- In addition, the top cover in the projection type display unit has the resin-made bosses on the back side thereof, and the screws are fastened to the bosses from the base cabinet side to thereby fix the base cabinet and the top cover. Therefore, there are no projecting parts on the surface of the top cover, so that carrying of the display unit would not be hampered by such projecting parts, which is much advantageous for enhancing the portability of the display unit. Furthermore, the absence of projecting parts on the surface of the top cover makes it possible to adopt any of a diversity of designs, and to enhance the degree of freedom in designing.
- Besides, in the projection type display unit of the present invention, the bosses on the back side of the top cover are made of a resin which is different from the sheet metal, so that there is no possibility that cutting chips generated from the bosses at the time of fastening the screws into the bosses might adversely affect a power circuit or the like inside the display unit.
- The above and other objects, features and advantages of the present invention will become apparent from the following description and appended claims, taken in conjunction with the accompanying drawings.
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FIG. 1 is a perspective view of a projection type display unit according to an embodiment of the present invention; -
FIG. 2 is a front view of the projection type display unit according to the embodiment; -
FIG. 3 is a left side view of the projection type display unit according to the embodiment; -
FIG. 4 is a right side view of the projection type display unit according to the embodiment; -
FIG. 5 is a bottom view of the projection type display unit according to the embodiment; -
FIG. 6 is a plan view showing the inside structure of the projection type display unit according to the embodiment; -
FIG. 7 is a perspective view of a top cover in the projection type display unit according to the embodiment of the present invention; -
FIG. 8 is a perspective view showing the shape of each boss projectingly provided on the back side of the top cover in the projection type display unit according to the embodiment; -
FIG. 9 is an illustration of the condition where the projection type display unit according to the embodiment is gripped by one hand; -
FIG. 10 is a side sectional view showing the structure in the vicinity of an exposing portion of a projection lens in the projection type display unit according to the embodiment; -
FIG. 11 is a vertical sectional view showing the structure in the vicinity of an exposing portion of a projection lens in the projection type display unit according to the embodiment; -
FIG. 12 is a schematic diagram showing the inside structure of the projection type display unit according to the embodiment; -
FIGS. 13A and 13B are schematic diagrams showing a cooling structure of the projection type display unit according to the embodiment; -
FIG. 14 is a perspective view showing the layout configuration of a lamp plate in the projection type display unit according to the embodiment; -
FIG. 15 is a bottom view showing the condition where a lamp lid is removed, in the projection type display unit according to the embodiment; -
FIG. 16 is a plan view, as viewed from the back side, of the lamp lid mounted in the projection type display unit according to the embodiment; and -
FIG. 17 is a vertical sectional view showing the mounting structure of the lamp lid in the projection type display unit according to the embodiment. - Now, an embodiment of the projection type display unit according to the present invention will be described in detail below, referring to the drawings. FIGS. 1 to 5 show the appearance of the projection type display unit in this embodiment, wherein
FIG. 1 is a perspective view,FIG. 2 is a front view,FIG. 3 is a left side view,FIG. 4 is a right side view, andFIG. 5 is a bottom view. In addition,FIG. 6 is a plan view showing the inside structure of the projection type display unit in this embodiment. - The projection
type display unit 1 shown here is a video projector which is of a small and thin type having a B5 size with a thickness of 50 mm or below, and in which light-weight is realized to have a weight of about 1.8 kg. - As shown in
FIG. 6 , the projectiontype display unit 1 has a configuration in which alamp unit 29 containing alamp 28 as a light source, and anoptical unit 30 including three color light valves 44(R), 44(G), 44(B) and aprojection lens 49 are incorporated in anarmor cabinet 2. An image obtained by the light valves 44(R), 44(G), 44(B) with light emitted from thelamp unit 28 is projected through theprojection lens 49 onto a screen, thereby displaying the image. - First of all, the armor configuration of the projection
type display unit 1 will be described. Thearmor cabinet 2 of the projectiontype display unit 1 is composed of abase cabinet 3 onto which inside component parts such as theoptical unit 30 are mounted, and atop cover 4 so mounted as to cover thebase cabinet 3. Here, thebase cabinet 3 is a die-cast product formed from a metallic material such as magnesium and aluminum, or is a resin molding formed from a hard resin material, and constitutes a bottom face portion, left and right side face portions, and a front face portion of thearmor cabinet 2. On the other hand, thetop cover 4 is a worked sheet metal product produced by drawing a sheet metal of an aluminum alloy or the like, and constitutes an upper face portion and a rear face portion of thearmor cabinet 2. - The
top cover 4 is fixed, in the state of being mounted on thebase cabinet 3, byscrews base cabinet 3. - As shown in
FIG. 2 , theprojection lens 49 is exposed through a transparentprotective plate 20 to afront panel 3 a constituting a front face portion of thearmor cabinet 2, and image light is projected from theprojection lens 49 onto a screen. Here, the transparentprotective plate 20 is disposed to be flush with thefront panel 3 a, and theprojection lens 49 is hermetically sealed and protected by theprotective plate 20. Further, on the inside of theprotective plate 20, a projectiondistance detecting sensor projection lens 49, by way of asemi-transparent member 21. - At a
left side face 3 b of thebase cabinet 3, anoperating part 6 and aterminal part 7 are concentratedly disposed, as shown inFIG. 3 . Here, theoperating part 6 is configured to have apower switch button 6 a, an inputsignal changeover button 6 b, an auto-focus changeover button 6 c, atilt adjustment button 6 d, azoom adjustment button 6 e, afocus button 6 f and the like, and theterminal part 7 is configured to have a powercord connection terminal 7 a and a picturesignal input terminal 7 b. On the other hand, at aright side face 3 c on the opposite side of this, exhaust ports (louvers) 10 foraxial fans 9 for discharging the heat of thelamp 28 as a light source are provided, as shown inFIG. 4 . - A
bottom face 3 d of thebase cabinet 3 is provided withfixing legs 11 at left and right positions of a rear face portion, and with anexpansion leg 12 at a front central position, as shown inFIG. 5 . Theexpansion leg 12 is expanded and contracted so as to project outward from and retract inward from thebase cabinet 3, and an adjustment of projection angle of the display unit (tilt adjustment) is conducted through the movements of theexpansion leg 12. In addition, thebottom face 3 d of thebase cabinet 3 is provided with anintake part 13 for a sirocco fan serving as a cooling section and with a multiplicity ofventilation holes 14, and a resin-madelamp lid 15 for closing an opening for replacement of thelamp unit 29 as the light source is attached to thebottom face 3 d byscrews 16. Thelamp lid 15 is provided with a multiplicity of exhaust heat holes 17 for discharging the heat generated in thelamp unit 29. - In the projection
type display unit 1 in this embodiment with the above-described armor configuration, thetop cover 4 constituting the upper face portion and the rear face portion of thearmor cabinet 2 is produced by blanking an about 1 mm thick sheet metal by a press and drawing the blanked sheet metal. As the material of thetop cover 4, there is preferably used an aluminum alloy as a metallic material which has a required strength for enduring as the armor of the projection type display unit 1 (in this embodiment, a flexural strength of not less than 15 kgf (147 N)) and which is light in weight and excellent in heat radiating property (thermal conductivity). As shown inFIGS. 7 and 8 , a plurality ofbosses 5 for screwing thetop cover 4 to thebase cabinet 3 are projectingly provided on the back side of thetop cover 4. - The
bosses 5 are molded integrally with the sheet metal of thetop cover 4 by outsert molding, from a resin material being different from the material of the sheet metal (aluminum alloy) of thetop cover 4, preferably a hard resin material such as PBT (polybutylene terephthalate). In this case, a surface of the sheet metal is provided with fine recesses and projections on the nanometer level by a nano-mold technology (NMT) process so as to permit the resin to enter into the recessed and projected surface, whereby a bonding property based on a key structure with the resin is provided so that the resin is molded in the state of being firmly attached to the surface of the sheet metal. In this structure, the strength of fixation of the plurality ofbosses 5 to thetop cover 4 can be maintained inexpensively and assuredly. - The plurality of
bosses 5 are provided at such positions as not to interfere with the component parts in the inside of the display unit. Each of thebosses 5 is provided at its base end portion with apedestal part 5 b greater in diameter than aboss body portion 5 a, whereby the area of joint to thetop cover 4 is enlarged, and a sufficient fixation strength is secured. Furthermore,resin runner parts 5 c are extended from thepedestal part 5 b, whereby the area of fixation of theboss 5 to thetop cover 4 is further enlarged. Besides, in this configuration, when the plurality ofbosses 5 are interconnected by theresin runner parts 5 c, the strength of fixation of thebosses 5 to thetop cover 4 is further increased, and the plurality ofbosses 5 can be molded using a single gate at the time of molding, so that there is generated the merit that the molding die can be simplified in structure. Incidentally, thebosses 5 may not necessarily be molded by the above-mentioned nano-mold technology process; for example, thebosses 5 may be integrally fixed to thetop cover 4 by welding or by use of a strong adhesive. - In mounting the
top cover 4 having thebosses 5 onto thebase cabinet 3, thetop cover 4 is put on thebase cabinet 3. Then, in this condition, an end portion on the rear side of thetop cover 4 is fixed to thebottom face 3 d of thebase cabinet 3 by thescrews 18, and thescrews 19 are fastened to thebosses 5 from the side of thebottom face 3 d of thebase cabinet 3, whereby thebase cabinet 3 and thetop cover 4 are fixed. - Since the
top cover 4 is made of a sheet metal, it is superior to a resin or the like in strength and heat radiating property; thus, this configuration is preferable for adoption for thearmor cabinet 2 of the projectiontype display unit 1 as in this embodiment, and has a lowering effect on the inside temperature. With the sheetmetal top cover 4 adopted, in the projectiontype display unit 1 according to this embodiment, the upper face portion of thearmor cabinet 2 can be minimized in thickness, which contributes greatly to the achievement of a super-thin configuration with a thickness of 50 mm or less. With the super-thin configuration thus achieved, the projectiontype display unit 1 in this embodiment can be carried while easily gripped with one hand, which is advantageous on a portability basis. - Furthermore, for enhancing portability, the projection
type display unit 1 in this embodiment has a structure in which, as is clear from the above-mentioned armor configuration, the operatingpart 6 and theterminal part 7 are concentratedly disposed at one side face (left side face) of thearmor cabinet 2, while the side face (right side face) on the opposite side is provided with theexhaust port 10 for discharging the heat generated in thelamp unit 29, and no parts are disposed at the rear face portion on the opposite side of the opening for theprojection lens 40 exposed to thefront panel 3 a so that the portion is easily held by gripping it with hand. The rear face portion of thearmor cabinet 2 is composed of the sheetmetal top cover 4 as above-described, and, particularly in the projectiontype display unit 1 according to this embodiment, therear face portion 4 a of thetop cover 4 is formed in the shape of a laid-down U-shaped curved surface as viewed sideways. - Thus, the projection
type display unit 1 in this embodiment is configured to have a thickness of 50 mm or less and has therear face portion 4 a of thetop cover 4 formed in the shape of the U-shaped curved surface, whereby the portion can be securely gripped with one hand, as shown inFIG. 9 . Specifically, where therear face portion 4 a of thetop cover 4 has a general angular shape, the depth of grip to the fingertips is small, so that the state of being gripped with one hand will be instable. In this embodiment, on the other hand, therear face portion 4 a of thetop cover 4 is formed in the shape of the U-shaped curved surface, the portion fits to the palm favorably on an ergonomic basis, and the grip on the display unit ranges to the fingertips, so that the display unit can be gripped securely and assuredly even with one hand. - In this configuration, the
rear face portion 4 a of thetop cover 4 is preferably formed in a circular arc shape with a radius R of about one half of the thickness T of the armor cabinet 2 (R=½×T), or may be formed in the shape of a continuous curve such as a parabola and an ellipse. This makes it possible to realize a curved surface shape just fitted to the shape of a palm at the time of holding the display unit by hand, and to enhance the portability of the display unit. - Since the
top cover 4 is produced by drawing a sheet metal, the curved surface shape can be easily obtained. In addition, since thetop cover 4 has the resin-madebosses 5 on the back side thereof and is screwed to thebase cabinet 3 side at thebosses 5, no projecting parts are present on the outside surface of thetop cover 4, and hampering of the carrying of the display unit by such projecting parts can be obviated, which is much advantageous for enhancing the portability. Besides, since thetop cover 4 is produced from a sheet metal by drawing as above-mentioned, generation of a parting line on the split line of dies as experienced in the case of a resin molding is obviated, so that a projection type display unit with a streamlined appearance design can be provided. Furthermore, in this projection type display unit, the absence of projecting parts or the parting line on the outside surface of thetop cover 4 makes it possible to adopt any of a diversity of designs, and to enhance the degree of freedom in designing. - Furthermore, in this projection type display unit, the
bosses 5 for screwing thetop cover 4 are formed from a resin which is an insulating material and different from the material of the sheet metal (aluminum alloy), so that there is no fear that cutting chips generated from thebosses 5 at the time of fastening thescrews 19 to thebosses 5 might adversely affect a power circuit and the like inside the display unit. In addition, since thebosses 5 are molded integrally with thetop cover 4 by outsert molding and are integrated with thetop cover 4 with a sufficient fixation strength by a nano-mold technology process, there is no need for fixing members or an adhesive or the like for fixing thebosses 5 to thetop cover 4, so that it is possible to reduce the number of component parts, to enhance workability, and to obtain improving effects on an environmental basis. -
FIGS. 10 and 11 show the structure of the vicinity of the exposing portion of theprojection lens 49 in thefront panel 3 a. As shown here, in the display unit according to this embodiment, a transparentprotective plate 20 fitted in position to be flush with thefront panel 3 a is disposed on the front side of theprojection lens 49, so that the front side of theprojection lens 49 is hermetically sealed by theprotective plate 20, and theprojection lens 49 is protected by theprotective plate 20. - The
protective plate 20 is formed of a transparent resin or glass, which is provided with AR coating on the face and back sides thereof to suppress the lowering in luminance efficiency to 1% to 2%. Theprotective plate 20 is fitted in thefront panel 3 a, and is clamped between thetop cover 4 and thebase cabinet 3. Theprotective plate 20 is provided withflange portions flange portions top cover 4 and thebase cabinet 3, whereby theprotective film 20 is prevented from coming off and is retained in position. Incidentally, thefront panel 3 a located on the left and right sides of theprotective plate 20 is fitted withdecorative plate - Furthermore, on the inner side of the
protective plate 20 in the inside of the display unit in this embodiment, a plate-likesemi-transparent member 21 a little greater than theprotective plate 20 is disposed. Thesemi-transparent member 21 is fixedly fused to the inner side of thefront panel 3 a, and is provided in its central portion with an opening corresponding to theprojection lens 49 so that theprojection lens 49 is exposed through the opening. On the inner side of thesemi-transparent member 21, a projectiondistance detecting sensor projection lens 49. The projectiondistance detecting sensor projection lens 49 and up and down adjustment for keystone correction. - Here, a semi-transparent resin or glass having a visible ray transmittance of 10% to 50% and a transmittance for the infrared beam for detecting the projection distance of not less than 90%. Examples of an optimum material for this purpose include a methacrylic resin molding material “ACRYPET (trademark)” produced by MITSUBISHI RAYON CO., LTD. With such a
semi-transparent member 21 provided, the inside component parts are invisible from outside, so that the projectiondistance detecting sensor projection lens 49. - As above-described, the projection
type display unit 1 according to this embodiment has a structure in which the transparentprotective plate 20 fitted to be flush with thefront panel 3 a of thearmor cabinet 2 is disposed on the front side of theprojection lens 49, thesemi-transparent member 21 having the opening corresponding to theprojection lens 49 is disposed on the inner side of the transparentprotective plate 20, and the projectiondistance detecting sensor semi-transparent member 21, whereby a simple appearance with a surface free of an opening for sensor or the like is realized. - In this configuration, since the
projection lens 49 is protected by theprotective plate 20 assembled into thefront panel 3 a of thearmor cabinet 2, theprojection lens 49 is prevented from being damaged and from adhesion of foreign matter thereto. Further, since theprotective plate 20 is so assembled as to be flush with thefront panel 3 a, dust collection in the vicinity of theprotective plate 20 is obviated, so that hindrance of image due to adhesion of dust or the like can be suppressed. - In addition, in this projection type display unit, the front side of the
projection lens 49 is hermetically sealed with theprotective plate 20, so that penetration of dust or the like into the inside of the display unit is prevented perfectly, the path of a cooling airflow in the inside of the display unit is made stable, and cooling efficiency can be enhanced. - Besides, in this projection type display unit, a structure is adopted in which the
semi-transparent member 21 is disposed on the inner side of theprotective plate 20, and the projectiondistance detecting sensor semi-transparent member 21, whereby the projectiondistance detecting sensor projection lens 49. Therefore, space efficiency in the inside of the display unit is enhanced, which contributes greatly to the reduction in the size and thickness of the display unit. - Furthermore, in this configuration, the
semi-transparent member 21 has theflange portion 21 a projecting toward theprojection lens 49, at an edge portion of the opening corresponding to theprojection lens 49. Due to the presence of theflange portion 21 a provided in thesemi-transparent member 21, in the projection type display unit according to this embodiment, the light of thelamp 28 inside the display unit can be prevented from leaking to the front side of theprojection lens 49 as unrequired reflected light (stray light). - In addition, in this configuration, the
protective plate 20 is mounted in the state of being clamped between thetop cover 4 and thebase cabinet 3. Therefore, in the case where theprotective plate 20 has been damaged or broken, theprotective plate 20 can be easily replaced by a new one by detaching thetop cover 4 from thebase cabinet 3. - Now, the inside structure of the projection
type display unit 1 according to this embodiment will be described below. As shown inFIG. 6 , the projection type display unit in this embodiment has a configuration in which thelamp unit 29 including thelamp 28 as a light source, theoptical unit 30 including the three light valves 44(R), 44(G), 44(B) and theprojection lens 49, and thesirocco fans axial fan 9 as a cooling section for cooling thelamp unit 29 and theoptical unit 30, apower circuit unit 25 for supplying electric power to thelamp 28 and the like, a signalprocessing circuit unit 26, and an operating part andterminal part unit 27, and the like are mounted in the inside of thearmor cabinet 2. - The
lamp unit 29 has a configuration in which thelamp 28 is mounted in the inside of a unit case, and can be replaced by opening thelamp lid 15 at thebottom face 3 d of thebase cabinet 3. As shown inFIG. 12 , theoptical unit 30 is configured to include a fly-eye lens 31, apolarization conversion element 32, acondenser lens 33,dichroic mirrors relay lenses field lenses liquid crystal panels 45 as display elements, aprism 48, theprojection lens 49, and the like. - In the
optical unit 30, non-polarized white light emitted from thelamp 28 is converted into linearly polarized light while passing from the fly-eye lens 31 and through thepolarization conversion element 32, and is condensed by thecondenser lens 33 to be uniform white light free of luminance irregularities, and the white light free of luminance irregularities passes through thedichroic mirrors - In this case, the white light is separated by the dichroic mirrors 34, 35 serving as color separation means into red light (R), green light (G), and blue light (B), and the red light passes through the
relay lens 39, thetotal reflection lens 36, therelay lens 40 and thetotal reflection mirror 37 to be condensed by thefield lens 41, before being incident on the red-light light valve 44(R). In addition, the green light passes through thedichroic mirror 35 to be condensed by thefield lens 42, before being incident on the green-light light valve 44(G). Further, the blue light passes from thedichroic mirror 34 and through thetotal reflection mirror 38 to be condensed by thefield lens 42, before being incident on the blue-light light valve 44(B). - The three light valves 44(R), 44(G), 44(B) are each configured to have
polarizing plates liquid crystal panel 45, wherein each color light is aligned as to the polarization direction by thepolarizing plate 46 on the incidence side, before being incident on theliquid crystal panel 45. Theliquid crystal panel 45 modulates each light by a picture signal impressed correspondingly to each color; then, the three modulated beams thus obtained are polarized when transmitted through thepolarizing plates 47 on the outgoing side to be picture beams, which are incident on theprism 48. In theprism 48, the picture beams in colors are synthesized, and the synthesized picture light is projected by theprojection lens 49 onto a screen, to display a full-color image. - In the projection type display unit in this embodiment including the projection optical system configured as above, high heat is generated in the
lamp unit 29, the vicinity of thepolarization conversion element 32 and the light valves 44(R), 44(G), 44(B) in theoptical unit 30, and thepower circuit unit 25, so that these components must be forcibly cooled to maintain a temperature not higher than an operation assurance temperature. - The cooling structure will be described. As shown in
FIGS. 6, 12 , 13A and 13B, in the projection type display unit according to this embodiment, the first andsecond sirocco fans second sirocco fans sirocco fans intake port 51 a of thefirst sirocco fan 51 directed upward and with anintake port 52 a of thesecond sirocco fan 52 directed downward, are disposed in a space on the rear side of theoptical unit 30. In this case, the first andsecond sirocco fans base cabinet 3 in the condition where intake spaces for the intake ports inside the display unit are sufficiently secured, and the intake of air is conducted through a multiplicity of ventilation holes 14 provided in thebottom face 3 d of thebase cabinet 3. - In this configuration, the
first sirocco fan 51 blows air through aduct 53 to thelamp unit 29 and to the vicinity of thepolarization conversion element 32 in theoptical unit 30 to cool them, as shown inFIG. 13A , whereas thesecond sirocco fan 52 blows air through aduct 54 to thepower circuit unit 25 to cool it, as shown inFIG. 13B . - In such a cooling section, a sufficient quantity of cooling airflow can be secured by use of the two small-type sirocco fans, and the installation space inside the display unit can be suppressed to be small by disposing the
sirocco fans - Furthermore, in such a cooling section, the
first sirocco fan 51 blows air to thelamp unit 29 and theoptical unit 30, whereas thesecond sirocco fan 52 blows air to thepower circuit unit 25, so that the flows of the cooling airflows inside the display unit are optimized, and efficient cooling is thereby achieved. Incidentally, thefirst sirocco fan 51 and thesecond sirocco fan 52 may be disposed in the reverse configuration, in which thefirst sirocco fan 51 blows air to thepower circuit unit 25, whereas thesecond sirocco fan 52 blows air to thelamp unit 29 and theoptical unit 30; in this case, also, the same cooling effect as above can be obtained. - As further a cooling section, in the projection type display unit according to this embodiment, the third and
fourth sirocco fans projection lens 49. The third andfourth sirocco fans projection lens 49. Here, thethird sirocco fan 56 and thefourth sirocco fan 57 are not the same in shape but are left-right symmetrical in shape, and they are mounted onto thebase cabinet 3, with theirrespective intake ports projection lens 49. The intake of air into thethird sirocco fan 56 and thefourth sirocco fan 57 is conducted on the lower side of theprojection lens 49 through a dust-filteredintake part 13 provided in thebottom face 3 d of thebase cabinet 3. - In this configuration, the
third sirocco fan 56 and thefourth sirocco fan 57 blow air through thin-type ducts base cabinet 3, to the vicinity of the light valves 44(R), 44(G), 44(B) of theoptical unit 30 for cooling the vicinity of the light valves 44(R), 44(G), 44(B). - By such a configuration in which the vicinity of the light valves 44(R), 44(G), 44(B) of the
optical unit 30 are cooled by thethird sirocco fan 56 and thefourth sirocco fan 57, the flows of the cooling airflows inside the display unit are further optimized, and further efficient cooling can be achieved. - In this case, particularly in the cooling section, the
sirocco fans right sirocco fans right sirocco fans type ducts base cabinet 3, so that the airflows from the blowing ports of thesirocco fans optical unit 30 without resistance, and the cooling efficiency is enhanced markedly. - In addition, in this configuration, the intake of air into the
sirocco fans projection lens 49 is conducted on the lower side of theprojection lens 49 through the dust-filteredintake part 13 provided in thebottom face 3 d of thebase cabinet 3; therefore, intake of dust or the like is prevented by the dust filter at theintake part 13, so that theprojection lens 49 and theoptical unit 30 can be securely protected from dust and the like. - Further, in the projection type display unit according to this embodiment, for enhancing the cooling efficiency particularly in the vicinity of the
lamp unit 29 which generates a large quantity of heat, the twoaxial fans 9 located in the vicinity of thelamp unit 29 on the inner side of theright side face 3 c of thebase cabinet 3 are disposed side by side, and the hot air generated from thelamp unit 28 is discharged through theexhaust port 10 by theaxial fans 9. - Besides, in order to realize a thin form with a thickness of 50 mm or below and portability as in the projection type display unit according to this embodiment, the
top cover 4 near thelamp unit 29 generating a large quantity of heat must be kept at such a temperature that thetop cover 4 can be held by hand, while minimizing the space between thelamp unit 29 and thetop cover 4. For this reason, in the projection type display unit according to this embodiment, alamp plate 61 which is a highly heat conductive sheet metal product higher in thermal conductivity than air is disposed in the space between thelamp unit 29 and thetop cover 4, whereby it is made possible to lower the temperature of thetop cover 4. - As shown in
FIG. 14 , thelamp plate 61 is a sheet metal product disposed so as to amply cover the upper side of thelamp unit 29, and a heat-diffusing effect of a highly heat conductive material constituting thelamp plate 61 makes it possible to lower the temperature of thetop cover 4 while minimizing the distance from thelamp unit 29 to thetop cover 4. Further, a lowly heat conductiveheat insulating sheet 62 lower in thermal conductivity than air is adhered to substantially the whole area of the upper surface of thelamp plate 61, and the heat-insulating effect of theheat insulating sheet 62 makes it possible to further lower the temperature of thetop cover 4. In this configuration, a highly heat conductive metal such as pure aluminum (JIS A1000) and copper is used as the material of thelamp plate 61, whereas a vacuum insulation material, for example, is used as theheat insulating sheet 62. - In this configuration, where it is desired to suppress the temperature of the
top cover 4 to a temperature of 40° C. to 50° C. which permits the user to hold thetop cover 4 with hand without any problem, it is necessary to use a sheet having a thermal conductivity of 0.0044 W/mK and a thickness of about 1.5 mm as theheat insulating sheet 62 and to suppress the temperature of thelamp plate 61 to a temperature of about 70° C. to 80° C. For achieving this temperature, a material having a high thermal resistance and a high thermal conductivity is used for thelamp plate 61 so that the quantity of heat received from thelamp 28 is efficiently diffused in the surface directions. Here, in the case where an extra-high pressure mercury lamp in a 165 W class, for example, is used as thelamp 28, when a material having a thermal conductivity of about 200 W/mK such as pure aluminum is used for thelamp plate 61, the temperature of thelamp plate 61 can be suppressed to about 80° C. with a heat radiating area of 9000 mm2; when a material having a thermal conductivity of about 400 W/mK such as copper is used for thelamp plate 61, the temperature of thelamp plate 61 can be suppressed to or below 80° C. with a heat radiating area of about 6000 mm2. - Thus, in the projection type display unit according to this embodiment, the lowering of the temperature of the
top cover 4 is achieved while realizing a thin type structure in which the space between thelamp unit 29 and thetop cover 4 is minimized, by the heat diffusing effect of thelamp plate 61 disposed between thelamp unit 29 and thetop cover 4 and the heat insulating effect of theheat insulating sheet 62. - As for the layout in this configuration, the
lamp unit 29, thelamp plate 61, theheat insulating sheet 62, and thetop cover 4 are laid out in this order, and, here, thelamp plate 61 formed of a highly heat conductive material is disposed between theheat insulating sheet 62 and thelamp unit 29, so that a lowly heat conductive material being comparatively low in heat resisting temperature can be used for theheat insulating sheet 62. In this case, with a metal as a highly heat resistant material used for thelamp plate 61, it is possible to cope with the purpose under the high-temperature conditions in the vicinity of thelamp unit 29. - Besides, in this configuration, the
lamp plate 61 is preferably composed of a sheet metal product which has a high reflectance in addition to the high thermal conductivity. To be more specific, by adopting thelamp plate 61 with such a high reflectance, the reception of heat due to direct light and radiant heat from thelamp 28 can be minimized, so that the adoption is further effective in lowering the temperature of thetop cover 4. - Further, in this configuration, the
lamp plate 61 is disposed so that its heat radiating surface fronts on the space near theaxial fans 9 where the velocity of the cooling airflows inside the display unit is comparatively high, whereby heat radiation at high efficiency can be achieved. To be more specific, in the space near theaxial fans 9 inside the display unit, the velocity of airflows W is comparatively as high as about 1 m/s to 1.5 m/s due to the exhaust force of theaxial fans 9, and, with thelamp plate 61 disposed so that its heat radiating surface fronts on the space, the quantity of heat received from thelamp 28 can be efficiently diffused, so that heat radiation at a higher efficiency can be achieved, which contributes greatly to lowering of the temperature of thetop cover 4. - Besides, in this configuration, the
lamp unit 29 has thelamp 28 contained inside theunit case 29 a having a reflector on the inside thereof. Here, particularly in the projection type display unit according to this embodiment, the upper side of theunit case 29 a is opened in shape, and thelamp plate 61 is closely disposed so as to cover the open side, thereby functioning also as a reflector. With such a configuration, the distance between thelamp 28 and thelamp plate 61 can be minimized, which is further advantageous for thinning the display unit. - Further, in the projection type display unit according to this embodiment, as a heat radiation structure in the vicinity of the
lamp unit 29, the structure of thelamp lid 15 for replacement of thelamp unit 29 is provided with a characteristic feature. The structure of thelamp lid 15 will be described referring to FIGS. 15 to 17.FIG. 15 shows the bottom face of thebase cabinet 3 in the condition where the lamp lid is removed. In the condition where the lamp lid is thus removed, anopening 65 of astorage part 64 for storing thelamp unit 29 is exposed at thebottom face 3 d of thebase cabinet 3, so that thelamp unit 29 can be replaced through theopening 65. - The resin-made
lamp lid 15 for closing theopening 65 is mounted onto thebase cabinet 3 by screws in the state of being fitted in a mountingrecess 66 at the periphery of theopening 65, and has a large area of not less than two times the area of theopening 65. Further, as shown inFIG. 16 , a metallic radiantheat insulating plate 67 slightly smaller than thelamp lid 15 in area is disposed on the back side of thelamp lid 15, and is mounted onto thelamp lid 15, with a required gap of about 1 mm therebetween. A sheet of a metal (e.g., aluminum, stainless steel or the like) higher in thermal reflectance than thelamp lid 15 is used as the radiantheat insulating plate 67. - In the condition where the
lamp lid 15 is mounted onto thebase cabinet 3, as shown inFIG. 17 , thelamp lid 15 is mounted in the condition where the radiantheat insulating plate 67 on the back side is in surface contact with the mountingrecess 66 of thebase cabinet 3 over an area of not less than one half of the area thereof. - Thus, in the projection type display unit according to this embodiment, the metallic radiant
heat insulating plate 67 is provided on the back side of thelamp lid 15 for closing theopening 65 of thestorage part 64 for thelamp unit 29, so that the radiantheat insulating plate 67 functions as a buffer member against the heat coming from thelamp unit 29. Moreover, since a gap is present between the radiantheat insulating plate 67 and thelamp lid 15, heat would not easily be transferred from the radiantheat insulating plate 67 to thelamp lid 15, so that the temperature of thelamp lid 15 is effectively restrained from rising. - Furthermore, in this configuration, since the
lamp lid 15 is mounted in the condition where the radiantheat insulating plate 67 on the back side is in surface contact with thebase cabinet 3, the heat received from thelamp unit 29 can be transferred from the radiantheat insulating plate 67 to thebase cabinet 3 and thereby dissipated. In this case, particularly in the configuration according to this embodiment, thelamp lid 15 is formed to have a size of at least two times the size of theopening 65, and the radiantheat insulating plate 67 is put in surface contact with thebase cabinet 3 over an area of at least one half of the area thereof, whereby a further efficient heat radiating effect can be obtained. As a result, the surface temperatures of thelamp lid 15 and thebase cabinet 3 are made uniform, and the inside temperature of the display unit can be stabilized. - Besides, as shown in
FIG. 16 , the radiantheat insulating plate 67 is provided with a multiplicity of exhaust heat holes 68. The exhaust heat holes 68 in the radiantheat insulating plate 67 are formed at positions corresponding to the exhaust heat holes 17 in thelamp lid 15, ventilation property is securely provided by the exhaust heat holes 17 and 68, whereby stagnation of heat inside the display unit is prevented from occurring, and more effective heat radiation can be achieved. - By the heat radiation structure as above-described, the projection type display unit according to this embodiment has been experimentally confirmed to have an advantage that the surface temperature of the lamp lid is lowered by about 4° C.
- Incidentally, in this configuration, the
base cabinet 3 is preferably formed of a metal having a required strength, being light in weight and excellent in heat radiation property, for example, magnesium, aluminum, or titanium, or an alloy containing such a metal. This ensures that the projection type display unit in this embodiment can be reduced in size and weight while maintaining the above-mentioned heat radiating effect. - While the present invention has been described referring to the embodiment above, the invention naturally is not limited to the configurations of the embodiment, and other various embodiments can naturally be adopted.
Claims (9)
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
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JPP2005-154149 | 2005-05-26 | ||
JP2005154149 | 2005-05-26 | ||
JPP2005-261242 | 2005-09-08 | ||
JP2005261242A JP4466515B2 (en) | 2005-05-26 | 2005-09-08 | Projection display |
Publications (2)
Publication Number | Publication Date |
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US20070070298A1 true US20070070298A1 (en) | 2007-03-29 |
US7726820B2 US7726820B2 (en) | 2010-06-01 |
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Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/440,004 Expired - Fee Related US7726820B2 (en) | 2005-05-26 | 2006-05-25 | Projection type display unit having a curved housing |
Country Status (4)
Country | Link |
---|---|
US (1) | US7726820B2 (en) |
JP (1) | JP4466515B2 (en) |
KR (1) | KR101231269B1 (en) |
TW (1) | TW200710537A (en) |
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JP7017111B2 (en) * | 2018-03-28 | 2022-02-08 | カシオ計算機株式会社 | Height adjustment mechanism and projection device equipped with this |
JP7173382B2 (en) * | 2018-03-28 | 2022-11-16 | カシオ計算機株式会社 | Height adjustment mechanism and projection device provided with the same |
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Also Published As
Publication number | Publication date |
---|---|
US7726820B2 (en) | 2010-06-01 |
KR101231269B1 (en) | 2013-02-07 |
TW200710537A (en) | 2007-03-16 |
JP2007004103A (en) | 2007-01-11 |
JP4466515B2 (en) | 2010-05-26 |
KR20060122733A (en) | 2006-11-30 |
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